synthesis of 14C-labelled tranexamic acid [trans-amino-(14C-methyl)-cyclohexane carboxylic acid]

Improvements have baen made to the synthesis of 5-aminasalicylic wid (S-ASA) in order to make it applicable for the small-scale synthesis of 5-smidcerboxvl-l ~l s a l i c y l i c acid.

Various Carbon-I4 l a b e l l e d amino acids i n c l u d i n g t h e a r o m a t i c ones viz., t y r o s i n e , phenylalanine and t r y p t o p h a n are converted t o t h e corresponding c a r b o x y l i c acids i n high y i e l d (70 -9M) on a micromolar scale s y n t h e s i s l y r e a c t i

## Abstract A versatile method for ^14^C labeling of 2‐methoxypyrimidine‐5‐carboxylic acid at the 2‐position has been developed after encountering difficulties with traditional approaches to label the carboxyl function. The method developed can also be used for ^14^C labeling other positions of the

## Abstract Trans‐[13,14‐^14^C~2~]‐Retinoic acid has been synthesized by condensation of β‐ionylideneacetaldehyde and ^14^C‐labeled methyl senecioate in the presence of potassium amide in ether. A convenient synthesis of the key intermediate, methyl (diethoxyphosphinyl)‐[2‐^14^C]acetate, is also de

Preparation of 14C labeled p-aminoisobutyric acid (3 Amino-2 methyl-propionic acid, 314C) \* In the course of studies on the catabolism of thymidine the need emerged to study in greater detail its metabolite (l), p aminoisobutyric acid (BAIBA). This substance, labeled with 14C in the 3-C position,